Celal Bayar University, Medical School, Departments of Biophysics1 and Physiology 2, Manisa
University of İstanbul, School of Science, Department of Physics3, İstanbul
tzeren@bayar.edu.tr
Introduction: The cardiorespiratory system function requires the harmony between heart and lung: The volume changes of these two organs is an evidence of vitality of organism and it has a very significant functional value for respiratory gas exchange.
Not only the volume changes of the lung but also the cardiac actions can be recorded on the external airway: The pneumocardiogram (PNCG) is a non-invasive record of the pulsative air flow in the trachea coincident with hearth motions [1]. The PNCG signals was previously considered to be useful for measurements of the respiratory mechanics and a model has been developed to explain dynamic respiratory impedance changes of external airway [2].
Material and Methods: Recently, the tracheal air flow created by heart actions of the spontaneously breathing rats could be obtained [3]. And, it has been emphasized that the PNCG method may be useful for physiological studies of circulation system in the small laboratory animals: Briefly, this technique was required high sensitive air flow signals because of the small magnitude of cardiac air flow oscillations of rat (PNCG).
Conclusion: We investigate the nonlinear behaviour of pneumocardiographic complex signals in Ref. [3]. It has been suggested that a non-linear model to be necessary for understanding of the fractals and dynamic behaviour of PNCG [4]. In this presentation we propose a new nonlinear model which may help to determine the reasons and/or importance of chaotic dynamic structure of cardiorespiratory functions and which could let us to obtain simulate data.
[1] J.A Reitan and A. Lim; "Automated measurement and frequency analysis of the pneumocardiogram", Anesth Analg. Nov-Dec;57(6), 647-52 (1978)
[2] E. Bijaoui, P.F. Baconnier and J.H.T. Bates; "Mechanical output impedance of the lung determined from cardiogenic oscillations", J Appl Physiol. 91: 859-865 (2001)
[3] M. Özbek, N. Ekerbiçer, M. Pehlivan, A. Akay, A. G. Karakurt and T. Zeren; "Anestezi altında spontan solunum yapan sıçanlarda pnömokardiografi", to be presented in 29th National Physiology Congress, Ankara-Turkey (01-05 September 2003)
[4] T. Zeren, M. Özbek, N. Ekerbiçer and K.G. Akdeniz; "Pnömokardiogramda gözlenen düzensiz dinamik yapıların incelenmesi", to be presented in 15th National Biophysics Congress, Denizli-Turkey (08-12 October 2003)
P272
SERUM LIPIDS IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE
*ASLIHAN B. KARUL, **FİSUN KARADAĞ, *MUSTAFA ALTINIŞIK, **ORHAN ÇİLDAĞ
*Adnan Menderes University, School of Medicine, Department of Biochemistry,
**Adnan Menderes University, School of Medicine, Department of Chest Diseases, Aydin, Turkey
In earlier studies, body mass index (BMI) of chronic obstructive pulmonary disease (COPD) patients was found lower than healthy controls and serum total cholesterol was inversely associated with hospitalization and death due to respiratory diseases. But there is no adequate data on serum lipids in COPD patients. The aim of this study is to evaluate serum tryglyceride (TG), total cholesterol (Chol),
LDL-cholesterol (LDL) and HDL-Cholesterol (HDL) levels in COPD patients and correlate their serum levels to the severity of COPD.
Fifty-two clinically stable male COPD outpatients (age 62.4±6.9) with no concomitant disease were admitted to the study. The patients were evaluated with clinical findings, pulmonary function tests and arterial blood gas analyses and subgrouped according to the severity of COPD (FEV1; forced expiratory volume in one second, % predicted). Serum Chol, TG, LDL and HDL levels were measured by ILLab 1800 autoanalyser (ILLab test kits). The statistical analyses were done by Pearson correlation coefficients and independent samples t-test. p<0.05 was accepted as significant.
BMI of two groups were similar (25.04±4.02 and 25.62±3.67kg/m2, (p=0.591). Serum lipid levels in severe (FEV1<50%) and mild-moderate (FEV1>50%) COPD patients were: Chol: 203±58.9, 218.6±54 mg/dl; TG: 126.8±100.8, 161.56±75.3 mg/dl; HDL: 43.1±13.2, 46±9.1 mg/dl; and LDL: 57.5±51.2, 109±69.3 mg/dl consequtively. Serum tryglyceride (p= 0.012 ) and LDL (p=0.018). levels of severe COPD patients were lower than mild-moderate patients A positive correlation was found between serum cholesterol (p=0.001, r=0.473), LDL(p=0.027, r=0.337) and severity of COPD.
P273
Intracellular traffIckIng of pH-sensItIve lIposomes
Roxana C. Mustata, Stefana M. Petrescu
Department of Molecular Glycobiology, Institute of Biochemistry, Romanian Academy,
Spl. Independentei 296, 060031 Bucharest, Romania
roxanam@biochim.ro
Liposomes are used as drug delivery system, with the purpose of reducing substance toxicity and/or increase its pharmacological efficacy. Although a number of liposome formulations are already patented, not many data have been reported on the intracellular trafficking and fate of liposomes.
Previous studies have shown that N-butyldeoxinojirimycin (NB-DNJ), an N-glycosylation inhibitor, had a better efficiency following inclusion in liposomes as compared to the free drug, added in the culture medium.
The aim of this study was to investigate the intracellular trafficking of pH-sensitive liposomes used as drug carriers for NB-DNJ. We have shown that a concentration of 50 micromolars of liposome-included NB-DNJ decreased DOPA-oxidase activity of tyrosinase to 57% as compared to 95% activity in B16-F1 cells incubated with the same concentration of free NB-DNJ. Western-blot analyses of tyrosinase have shown that, in the presence of 50 micromolars liposome-loaded NB-DNJ the formation of complex glycans is prevented and tyrosinase migrates at lower molecular weight.
We have also performed in vivo fluorescent microscopy experiments using both a lipid membrane and internal, aqueous compartment markers, to visualize intracellular trafficking of pH-sensitive liposomes in B16-F1 and MDBK cells. We found out that the liposomes enter into the cells via the endocytic pathway and the liposome-encapsulated material is released into the cytoplasm. After 24 hours liposome lipids partially colocalized with the Golgi apparatus in MDBK cells.
Taken together our results suggest that the pH-sensitive liposomes cross the plasma membrane and deliver their content to the cytoplasm and to the secretory pathway.
P274
COMPARISION OF MDA LEVELS MEASURED BY USING TWO DIFFERENT HPLC DETECTORS CONCURRENTLY
Memduh Bülbül*, Hilal Koçdor*, Zahide Çavdar*, Mehmet Eminoğlu*, Mehtap Yüksel*, Halil Resmi*, Gül Güner*
gul.guner@deu.edu.tr
*Dokuz Eylül University, Learning Resources Center Research Laboratory (ARLAB),
35340 İnciraltı-İzmir
[Objectives] Malondialdehyde (MDA), a biomarker of lipid peroxidation, is commonly used in conditions associated with oxidative stress. Since thiobarbituric acid (TBA) reacts with many other compounds, it has been suggested that high-performance liquid chromatography (HPLC) seperation might be more spesific, providing a relevant assay for MDA. In this study, we compared the linearity of calibration curves and the reproducibility and the recovery of a MDA method with organic phase step by using two different detectors, UV-VIS and fluorenscence detectors.
[Methods] UV-VIS detector (=532 nm) and fluorescence detector (Ex=515 nm, Em=553 nm) were connected in series in our HPLC procedure. Erythrocytes were used in the study. To eliminate the effect of interfering substances, pyridine-butanol extraction step was performed. The peaks of TBA-MDA complex were obtained within 4.988 minutes with UV-VIS detector and within 5.003 minutes with fluorescence detector. The sensitivity of two detectors and the linearity of calibration curves were compared. The reproducibility (n=15) was calculated on days 1, 2 and 3. The recovery (n=10) was calculated at concentrations of 5, 20 and 50 mol/L.
[Results] The correlation coefficients of UV-VIS and fluorescence detectors in the graphics were 0.99518 and 0.985388, respectively. The results obtained from erythrocytes were found to be within the range of 20-30 mol/L and the recovery was 96% in this range. The intra-assay reproducibility was 10%. The intra-assay variation and the inter-day variation of the retention time of TBA-MDA peaks were 1.71% and 1.14%, respectively.
[Conclusion] The most important difference between chromatograms of two detectors was that the area obtained with fluorescence detector was 10 times larger than the area obtained with UV detector for the same MDA concentrations. Our results showed that both detectors could be used successfully. However, the fluorenscence detector appeared to be more sensitive for the samples with low MDA levels.
P275
ADVANCED GLYCATİON ENDPRODUCTS (AGES) İN EXPERİMENTAL DİABETİC NEPHROPATHY: IS SUPPLEMENTATİON WİTH THİAMİNE PYROPHOSPHATE OR PYRİDOXAL 5’PHOSPHATE BENEFİCİAL?
Suat H. KÜÇÜK1,2 , M. Mert ÖZDOĞAN1, Gülden BURÇAK1
1Departman of Biochemistry, Cerrahpaşa Medical Faculty, İstanbul University, 2Centro laboratories, İstanbul, Turkey
Increased advanced glycation end product (AGE) formation is the major mechanism implicated in diabetic nephropathy (DN). Limiting the rate of AGE formation has been suggested as a new theraupeutic approach in DN. Thiamine pyrophosphate (TPP) and Pyridoxal 5’Phosphate (PLP) have been shown to inhibit advanced glycation in vitro. In this study we firstly questioned for their benefits in DN.
Wistar albino male rats (n=62) ageing 8 months were allocated to “diabetic”, “diabetic+TPP”, “diabetic+PLP”, “diabetic+insulin”, “control”, “PLP” and “TPP” groups. The administered doses were as follows: STZ 70 mg/kg, ip; TPP (50 mg/kg) and PLP (50 mg/kg) in drinking water and insulin (4 U/day, subcutan).
Glucose, HbA1c and as nephropathy indices kidney weight/body weight ratio, urinary volume, creatinine clearance (GFR), microalbuminuria and β2microglobulinuria were measured. AGE-peptides were measured in plasma and kidney, and the activity of aldose reductase (AR), an enzyme for detoxification of reactive dicarbonyl compounds was measured in the kidney.
The data revealed the establishment of nephropathy in the diabetic rats. AGE-peptides were observed to be significantly increased both in the kidney and in the plasma of diabetic rats. Plasma and kidney AGE-peptide values were correlated. Insülin treatment caused significant decreases in all parameters except renal hypertrophy and plasma AGE-peptide levels. PLP supplementation improved microalbuminuria and caused nonsignificant reductions in AGE-peptide levels of plasma and kidney. TPP supplementation had not any effect. AR activity didn’t displayed any sinificant difference between the groups.
In conclusion, PLP treatment slowed the progression of diabetic nephropathy and decreased glomerular injury. PLP supplementation may prevent the AGE-related damage in diabetic nephropathy. Plasma AGE-peptide levels may be considered as a marker for tissue AGE levels in diabetic rats.
P276
COMPARISON OF URINE SEDIMENTS BY TWO DIFFERENT METHODS
Oytun PORTAKAL, Gülşen HASÇELİK
Clinical Pathology Laboratory, Hacettepe University Medical School 06100 Ankara/TURKEY
oytun@hacettepe.edu.tr
The present study was designed to compare urine sediments of the patients by two different methods in Clinical Pathology Laboratory of Hacettepe University Medical School from November 2001 to December 2001. We compared UF-100 (ROCHE, Germany) with IRIS-900 (DPC, USA) and manual method as a gold standart. This study was carried on five following days and one hundred urine samples examined per day to detect RBC, WBC, calcium oxalate and uric acid crystals, casts and yeasts. It was observed 66, 34, 11 urine samples (normal, pathological, discordant samples, respectively) in the 1st day, 52, 47, 9 urine samples in the 2nd day, 49, 52, 6 urine samples in the 3rd day, 43, 57, 8 urine samples in the 4th day, 41, 54, 11 urine samples in the 5th day. Fourty seven discordant samples were separated to examine by manually and they reexamined in IRIS-900 and in UF-100. Among 495 urine sediments, sensitivity, specificity and positive predictive values were 92.6%, 91.2% and 91.1% for UF-100 and were 99.2%, 98.8% and 98.8% for IRIS-900 respectively. False negativity and false positivity were 7.4% and 8.8% for UF-100, 0.8% and 1.2% for IRIS-900. Kappa value was 0.851. When all urine samples considered IRIS-900 and UF-100 results were observed to be consistent to each other.
P277
QUALITY ASSURANCE PROGRAM İN NEWBORN SCREENİNG
Yahya LALELİ
Düzen Laboratuvarlar Grubu, Ankara/TURKEY
ylaleli@duzen.com.tr
Newborn screening using dried-blood-spot (DBS) collected at birth for identification of biochemical or other inherited conditions can effectively prevent the mental retardation, other disabilities and/or death associated with these disorders. Factors such as the public health infrastructure, the financial resources available, the technological capabilities, the differences in disease prevalences and even the public awareness of newborn screening have all affected panel of diseases covered in newborn screening programs and there is yet no uniform universal newborn screening program upon which a consensus has been made.
The published newborn screening program guidelines define a six part system of education, screening, follow-up, diagnostic confirmation, treatment/management and evaluation. The application of quality assurance to the screening component will be the subject of this presentation.
A successful newborn screening program should produce accurate and timely reported results, should avoid missing cases (false negative) and should minimize false positive results that can cause parental anxiety. The means for a laboratory to maintain and enhance the quality of its test results is to participate in a quality assurance and proficiency testing program and to document its practice in quality assurance. Our laboratory participates in the Newborn Screening Quality Assurance Program (NSQAP) operated by Centers for Disease Control . The program provides quality control and proficiency testing DBS material for detection of congenital hypothyroidism, phenylketonuria, tyrosinemia, maple syrup urine disease, homocystinuria, galactosemia, biotinidase deficiency, congenital adrenal hyperplasia and sickle cell disease and also a separate program for detection of amino acid , fatty acid oxidation and organic acid metabolic disorders by tandem mass spectrometry . It uses certified DBS materials and consists of two DBS distribution components: Quality control (QC) materials for periodic use and quarterly proficiency testing (PT). For the QC part, NSQAP distributes DBS materials at 6-month intervals. Participants return quantitative results from five different analytical runs of the QC materials. The proficiency testing part of the program provides laboratories with quarterly panels of blind-coded DBS specimens that participants analyze once. They return their analytical results and clinical assessments. The program gives the laboratory an independent external assessment of its performance .
The congenital hypothyroidism and phenylketonuria newborn screening program organized and operated by the Ministry of Health in Turkey can be achieved only through the establishment and harmonious collaboration of central and local committees and the quality assurance of the program can be guaranteed by the practice of efficient quality control and proficiency testing programs described in the above perspectives.
[1]QC programs for thyroxine (T4), thyroid-stimulating hormone (TSH), phenylalanine (Phe), total galactose (Gal), 17 alpha-hydroxyprogesterone (17-OHP), leucine (Leu), methionine (Met), tyrosine (Tyr), valine (Val), and citrulline (Cit). We recently began offering QC materials for acylcarnitines (C2, C3, C4, C5, C6, C8, C14 and C16). [2]
[3]PT programs for T4, TSH, Phe, Gal, 17-OHP, Leu, Met, biotinidase, galactose-1-phosphate uridyltransferase, and sickle cell disease (SCD) and other hemoglobinopathies.[4]
P278
RELEVANCE OF PROCALCITONIN AS AN EARLY INDICATOR OF SEPSIS
1Oytun PORTAKAL, 2Nuriye FIŞGIN
1Hacettepe University Medical School, Clinical Pathology Lab. 06100, Ankara/ TURKEY
2Ankara Numune Education and Research Hospital, Department of Infection Disease and Clinical Microbiology, Ankara / TURKEY
oytun@hacettepe.edu.tr
The main goal of the present study was to outline the efficacy of procalcitonin (PCT) at early diagnosis of sepsis with compared to C-reactive protein (CRP) in an adult intensive care unit. Thirty patients who were diagnosed with sepsis and SIRS according to the American Collage of Chest Physicians/ Society of Critical Care Medicine criteria were participated into the study. Patients were classified.as sepsis- group (sepsis, severe sepsis and septic shock, n=19), SIRS-group (sepsis origin or not, n=11) and control-group (not sepsis or SIRS, n=13). Serum concentrations of PCT and CRP were determined within 24 h after clinically onset of diseases. PCT levels were 7.8 ng/ml, 96.4 ng/ml, 0.7-403 ng/ml (median, mean, min-max levels, respectively) in sepsis-group, 3.8 ng/ml, 19.4 ng/ml, 0.94-144.3 ng/ml in SIRS- group and 0.52 ng/ml, 0.56 ng/ml 0.1-1,7 ng/ml in control-group. CRP levels were 110.0 mg/L, 94.5 mg/L, 0.0-171 mg/L (median, mean, min-max levels, respectively) in sepsis-group, 72.0 mg/L, 67.4 mg/L, 0-169.0 mg/L in SIRS-group and 0.01 mg/L, 0.043 mg/L, 0.0-0.5 mg/L in controls. While a significant rise was observed for PCT (p<0.001) in sepsis-group, serum PCT was not different from controls (p>0.05) in SIRS-group. For CRP, a significant increase was found in both sepsis and SIRS-groups (p<0.001), (p<0.001), respectively. Diagnostic accuracy was evaluated by using receiver operating characteristic (ROC) curve. The area under the ROC curve was 0.947 for PCT (95% CI, 0.874-1.0) and 0.867 for CRP (95% CI, 0.755-0.980). In this study, PCT was observed to be a useful marker for early diagnosis and management of sepsis in intensive care units.
P279
EXPANDED NEWBORN SCREENING FOR INBORN ERRORS OF METABOLISM BY TANDEM MASS SPECTROMETRY
İnci KARAARSLAN
Düzen Laboratuvarlar Grubu, İstanbul/TURKEY
incik@duzen.com.tr
Screening tests relied on the “one test-one disorder” concept until the introduction of tandem mass spectrometry into newborn screening in the 1990’s. Profiling of amino acids and acylcarnitines in a single analysis has enabled newborn screening programs to expand testing to include up to 30 treatable inborn error of metabolism(IEM). Besides the increase in the number of diseases covered, tandem MS has also improved testing from an analytical point of view. It is very specific and sensitive in its identification of the compounds. The false positive rates are lowered because disorders are identified not only on the basis of quantification of metabolites but also by the screening for a pattern of metabolite abnormalities as opposed to screening for a single metabolite and also by measuring metabolite ratios.
Between October 2001-August 2003, 12188 newborn (1-10 day old) were screened by tandem MS in our laboratory . %95.5 of the babies were healthy and had normal birth weight. % 4.5 of the babies either had birth weights less than 1500 gr, required neonatal intensive care, or had symptoms or family history of an IEM. Within the first group, three babies with PKU and one with Citrullinemia were identified. In the latter group, we identified 8 amino acid disorders, 4 urea cycle defects, 7 organic acidemias and 1 fatty acid oxidation defect.
Within the same period we also screened 1853 patients (age 11 days — 14 years old) who had clinical symptoms associated with IEM. We identified 15 amino acid disorders and 13 organic acidemias.
The conclusions we can deduct from our experience with screening for IEM by tandem mass spectrometry are
1. The overall frequency of IEM is high in our country and newborn screening for these disorders at least in a selected high risk group will be cost effective both for the family and for the society in the long run.
2. Quite a number of treatable IEM can be rapidly diagnosed from a very simple sample , namely a dried blood spot which is both easy to obtain, to transport and to store. This advantage should be made use of for screening IEM especially in states of emergency and in cases where laboratories capable of performing advanced metabolic tests are not readily available.
P280
INTERACTIONS OF FUNCTIONAL VITAMIN B12 DEFICIENCY ASSESSED BY URINE METHYLMALONIC ACID DETERMINATIONS WITH THE ERYTHROCYTE MEMBRANE MALONDIALDEHYDE , CHOLESTEROL AND SERUM PHOSPHOLIPASE A2 ACTIVITY IN THE PSYCHOTIC DISORDERS
Ömer ÖZCAN*, Mustafa GÜLTEPE*, Osman Metin İPÇİOĞLU*
* GATA Haydarpaşa Educational Hospital, Department of Biochemistry, İstanbul, Turkey.
Background: There are some cell membrane abnormalities and functional vitamin B12 deficiencies in neuropsychiatric diseases. However, there is not such data defining the relationship between cobalamin metabolism and cell membrane alterations in psychiatric disorders. In this study, our aim is to investigate the markers contributing cell membrane abnormalities and cobalamin state and to detect any existing interaction between those changes in schizophrenic and antisocial individuals.
Material and Methods: 18 schizophrenic, 27 antisocial and 20 healthy individuals (control group) in the same age and sex distribution, were involved to this study. In the erythrocyte membrane, malondialdehyde (MDA), cholesterol, protein and phospholipid classes were determined. Serum vitamin B12, plasma tHcy, serum folate, serum phospholipase A2 (PLA2) and serum carnitine levels were measured in both groups. The urine methylmalonic acid (uMMA) determinations of patient and control groups were made in the fasting urine samples in the morning by using a simple photometric method described by Gültepe et al (Clin Biochem 2003). Statistical analyzes were calculated by using SPSS for windows (ver. 11.0) software.
Results: In schizophrenic group, uMMA, serum PLA2, membrane MDA, membrane cholesterol, membrane phosphatidylinositol and phosphatidylserin levels were found to be statistically higher than the control group’s values. There was a significant positive relationship between uMMA concentrations and membrane MDA and a negative correlation with membrane cholesterol and serum PLA2 levels (p<0.05). Membrane cholesterol content was also showing a positive correlation with PLA2 activities in the schizophrenic group. In the antisocial group, vitamin B12 and folate levels were found to be lower than the control group’s (p<0.01). In the membrane phospholipids, phosphatidyletanolamin was higher than the control group’s while phosphatidylinositol was found to be lower than control group’s values.
Conclusion: In the schizophrenic individuals, the elevated membrane cholesterol, decreased phosphatidylserin levels and increased PLA2 activity causes reduced membrane fluidity. The correlations of uMMA with PLA2 and membrane cholesterol levels could be related to decreased entrance of vitamin B12 into the cytoplasm. Free radicals, increase in the erythrocyte membrane that may cause membrane damage, are also related to elevated uMMA levels while the serum vitamin B12 concentrations are in the reference range. In antisocial individuals the membrane changes were lower than the schizophrenics but there were significant changes in phospholipids against control groups. There is a strong relationship between membrane abnormalities and functional vitamin B12 deficiency in schizophrenic group. However in the antisocial group neither functional B12 deficiency nor relationship with membrane changes was found.
P281
THE RELATION OF ZINC AND SELENIUM WITH THYROID HORMON LEVELS IN DOWN’S SYNDROME
Gülden BAŞKOL1, Cemil ÇELİK2, Sabahattin MUHTAROĞLU1 and Ramazan AMANVERMEZ2
1Erciyes University, Faculty of medicine, Department of Biochemistry Kayseri/Turkey
2Ondokuzmayıs University, Faculty of medicine, Department of Biochemistry Samsun/Turkey
gbaskol@yahoo.com
Down’s Syndrome (DS) is usually due to changes in chromosome number 21. Trace elements are very important for a healthy life and in their absence or deficiency whole metabolic pathways in the organism are effected and these may cause even death of organism. Trace elements are essential for growth tissue repair and many metabolic events. It is thought that zinc and selenium levels affect thyroid hormon metabolism. Coexisting deficiencies of these elements elements can impair throid thyroid functions. The relationship between DS and thyroid disease is well defined. In our study we measured zinc, selenium, FT3, FT4 and TSH levels in 35 children with DS and try to examine, if there is any correlation between thyroid hormon levels and trace elements.
Plasma zinc and selenium concentrations are measured with atomic absorbtion spectrophotometer. FT3, FT4 and TSH analyses are performed with Advia Centaur, according to the chemiluminescence method.
Zinc and selenium levels are detected 12,373.6 mol/L, 0,580,17 mol/L respectively in children with DS. In control group levels of these elements were found 15,886,42 mol/L, 0,660,15 mol/L respectively. Zinc and selenium levels were decreased statiscally significantly in DS. FT3, FT4 and TSH levels were found 3,210,82 pg/mL, 1,160,22 ng/dL and 4,43 2,45 U/mL (mean SD)respectively in DS. FT3 level was found significantly low, TSH level were high in DS. In addition, we found that there is no corelation between FT3, FT4 and TSH levels and zinc-selenium levels.
Adequate selenium nutrition supports efficient thyroid hormone synthesis and metabolism so that supplementation of these elements in diet of DS patients may prevent them from severe thyroid fuction.
P282
PURIFICATION OF CYTOSOLIC GSTT2-2 FROM BOVINE LIVER
İşgör Belgin1, İşcan Mesude 1, Çoruh Nursen2
1 Middle East Technical University, Faculty of Arts and Science, Department of Biological Sciences, Ankara/Turkey
2 Middle East Technical University, Faculty of Arts and Science, Department of Chemistry, Ankara/Turkey
isgor@metu.edu.tr
The glutathione S-transferases (GSTs) (EC.2.5.1.18) are enzymes that participate in cellular detoxification of endogenous as well as foreign electrophilic compounds. They function in the cellular detoxification systems and protect cells against reactive oxygen metabolites by conjugating the reactive molecules to the nucleophile scavenging tripeptide glutathione (GSH, -glu-cys-gly). The GSTs are found in all eukaryotes and prokaryotic systems, in the cytoplasm, on the microsomes, and in the mitochondria. Cytosolic GSTs have been grouped into seven distinct classes as: alpha (), mu (), pi (), sigma (), omega, theta () and zeta (). Soluble forms of GSTs are homo or heterodimers of different subunits with distinct substrate specificities having molecular weight from 20.000 to 25.000.
In comparison with other GSTs, class theta enzymes have proven difficult to isolate and characterize. Two distinct theta GSTs have been identified in man, GSTT1-1 and GSTT2-2 three in the rat rGST1-1, rGSTT2-2 and 13-13 and one in the mouse .
In this study, GST T2-2 was isolated and purified form bovine liver by sequential application of bovine liver cytosol into the various liquid chromatography columns starting from DEAE cellulose anion exchanger liquid chromatography column, S-hexylglutathione agarose affinity column, dye binding orange A.The enzyme activities towards CDNB, 4-nitrobenzylchloride (NBC) and 1-menapthyl sulfates were measured as described by Habig and Jacoby. The purification table was prepared with the yield of 41.3 after the orange A column. The specific activity of the purified fraction was checked against 1-MS and pNBC. The purified fraction from orange A column was found as electrophoretically and immunologically almost pure after western blotting.
P283
A. thaliana G PROTEIN γ-SUBUNIT GENE: CLONING, CHARACTERIZATION AND EXPRESSION
Çağdaş SEÇKİN, and Zehra SAYERS
Sabancı University, Faculty of Engineering & Natural Sciences, Biological Sciences & Bioengineering Program, 34956, İstanbul/TURKEY
cag_das_2000@yahoo.com
Heterotrimeric G-proteins belong the large G-protein (Guanine nucleotide binding protein) family and are a part of the signal transduction pathway in a wide range of systems including fungi, plants and mammals. The heterotrimer consists of alpha, beta and gamma subunits. Recently, 13 alpha, 7 beta and 2 gamma subunits were identified in plant systems (Assmann, 2002). The plant G- alpha has been identified in Arabidopsis thaliana and its role in light response, seed development and regulation of ion channels have been shown. Plant beta and gamma subunits on the other hand, have been identified on the basis of A. thaliana genome sequencing as well as through studies using yeast two hybrid technique (Weiss et al., 1994; Mason and Botella 2000, 2001). There are no reports in the literature on cloning and expression in a prokaryotic organism of plant G-protein gamma subunit genes (AGG1 and AGG2). Structural studies on AGG proteins are also lacking.
In this study the AGG1 gene coding for the Arabidopsis thaliana G protein gamma subunit was amplified by PCR and subcloned in E. coli for verification and analyses of the cDNA sequence. Following source sequence verification AGG1 was inserted into different expression vector for overexpression of the recombinant protein. These vectors included pGEX-4T2, pGFPuv, pTrcHis-TOPO and pT7/NT-TOPO. Different E. coli strains including BL21(DE3) and BL21(DE3)pLysS, were tried as host cells. Expression of AGG1-his tag fusion protein using pTrcHis-TOPO in BL21(DE3)pLysS cells was demonstrated. AGG1 protein was detected by Western blott and coomassie blue staining of polyacrylamide gels.
This study is the first report of AGG1 expression and synthesis of the gene product in a bacterial cell and it provides characterization of different AGG1 gene containing constructs.
P284
BIOCHEMICAL CHARACTERIZATION OF GLUTATHIONE S-TRANSFERASE FROM HELICOVERPA ARMIGERA
Konuş Metin 1, Uğurlu Sakine 2 , İşcan Mesude 1
1Middle East Technical University, Faculty of Arts and Science, Department of Biological Sciences Ankara/Turkey
2Ankara Plant Protection Central Research Institute Ankara/Turkey
The cotton bollworm, Helicoverpa armigera (Hübner)(Lep. Noctuidae) is one of the most important insect pests of many agricultural plants in Asia, Africa and Australia. It is a polyphagous insect that causes major damage to more than 60 kinds of crops, including cotton, legumes, cereals and vegetables and more than 67 kinds of wild plants. Due to excessive selection pressure by the intensive use of insecticides on cotton and other crops, the field populations of H. armigera have become resistant to synthetic pyrethroids by mainly three mechanisms, including reduced penetration through the cuticle, decreased nerve sensitivity and enhanced metabolism by the detoxification enzymes especially glutathione S-transferases.
GSTs are a family of multifunctional enzymes involved in the cellular detoxification of a broad range of electrophilic xenobiotics and reactive compounds of the oxidative stress. All mammalian cytosolic GSTs occur as homo or heterodimers of the kinetically independent subunits. Mammalian GSTs are subdivided into eight species according to their sequence homologies and enzymatic, physicochemical and immunological properties as alpha, kappa, mu, omega, pi, sigma, zeta and theta, which are independent gene classes. In insects, GSTs are recognized for their importance in the metabolic detoxication of insecticides of allelochemicals from host plants, in protecting insects from the toxic effects of active oxygen species and for the practical role of GST induction in turning on the detoxifying enzymes enhancing the defense machinery, speeding the development of resistance and causing cross-tolerance to other pesticides.
In this study, gut sections from H. armigera sensitive samples obtained from Israel, which had not been exposed to any insecticides, were used as GST source. Each gut section homogenized separately in 1,0 ml, 0,1 M, pH 6,5 phosphate buffer and centrifuged at +4°C, 10000g max, 30 minutes. After centrifugation supernatant was used as GST source. GST activity was determined using CDNB (1-chloro-2, 4-dinitrobenzene) as substrate. The reaction conditions were optimized. The enzyme activity was linear with enzyme amount up to 7, 4µ g proteins in reaction medium and 7.4 μg/ml were chosen as optimum protein concentration. The maximum enzyme activity was reached at final concentration of 20 mM and that of pH was 7.5 in phosphate buffer. The optimum temperature was determined as 30◦C. The enzyme was saturated with its substrate CDNB at concentration of 1 mM. Km was calculated as 0,22mM and Vmax was obtained as 217,4 nmole/min/mg protein. The optimum cofactor GSH (Glutathione) concentration was determined as 0,2mM.
P285
ONE OF THE HOSPITAL DATA MANAGING STUDY: NEWBORN SCREENING FOR CONGENITAL HYPOTHYROIDISM
Yaşar ENLİ (1), Diler ASLAN (1), Mehmet TÜRK (1), Serap SEMİZ (2), Hacer ERGİN(2)
(1)Pamukkale University, Faculty of Medicine, Department of Biochemistry, 20200,Denizli / TURKEY
(2)Pamukkale University, Faculty of Medicine, Department of Pediatrics, 20200, Denizli / TURKEY
enli20@yahoo.com
Clinical laboratories are data managing centers in hospitals. Clinical utility from laboratory tests and cost effectiveness analyses are the main responsibilities of laboratories. The laboratory data must be evaluated, systematically. In order to give an answer about what we can do for data managing studies in our hospital, we planned this retrospective study.
Thyroxine affects the function and development of many body systems and is essential for normal growth and development. Thyroid hormone is especially necessary in the first three years of life when it plays an important role in ensuring normal brain growth and nervous system development. By measuring thyroid hormone levels (thyroid stimulating hormone-TSH, Total thyroxine-TT4) in all babies after birth and between 2-6 weeks of age, newborn screening programs are able to identify infants with low thyroid hormone levels who may have congenital hypothyroidism even before there are any signs or symptoms of hypothyroidism. Prompt and appropriate treatment of infants with congenital hypothyroidism with thyroxine allows normal growth and intellectual development.
In this retrospective study, we used the data taken from our laboratory information system (LIS) (Bilfo Bilgisayar ve Bilişim Sistemleri). According to this data, totally 291 newborns (149 male, 142 female) were screened after birth for congenital hypothyroidism between July 10, 2002 and July 11, 2003. TSH levels were determined higher than 20 IU/mL for 10 children. TT4 levels were determined lower than 6.5 g/dL for 5 of these 10 children.
In our LIS, there is no information about gestational and postnatal age. We must know gestational and postnatal age, in order to make a decision for thyroid hormone levels high or low, correctly and to make medical decision. We decided that our hospital information system and LIS should be improved for data management, effectively.
Key Words: Clinical laboratory, data management, newborn hypothyroidism.
SCREENING METHOD Primary T4 With Backup TSH Measurements
This approach will detect infants with primary hypothyroidism (low or low-normal T4 with elevated TSH concentrations).
In addition, if the T4 result is reported, this approach can also identify infants with thyroxine-binding globulin (TBG) deficiency or hypothalamic-pituitary hypothyroidism.
Programs that quantify high T4 values also have the potential to identify infants with hyperthyroxinemia.
Screening programs employing a primary T4 with TSH backup approach will follow-up on infants with a low T4 and elevated TSH screening result.
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